dynamic and static
Sometimes engineers use either scientific or engineering notation, although you are correct that most of the time engineering notation is used. The reason for this the use if greek letter prefixes for quantities. Very often large and small quantities are expressed as micro, mega, giga, nano, and so on. These terms relate to engineering notation in multiples of 1000 or 1/1000. It is a very convenient shorthand not only in writing but also while speaking.
Blakke
Yes, this is correct!The application of scientific knowledge for practical purposes is engineering.
mechanical
they built canals
A few examples of scientific field quantities are temperature, elevation, atmospheric pressure, rainfall, and magnetic fields.
Nothing
Any quantity for which a direction is relevant. Examples include displacement, velocity, acceleration, force, electric field, magnetic field, and many more.
large ocean, outer space, and atoms
Very large numbers or very small numbers can be expressed in scientific notation as in the following examples: 1,000,000,000,000 = 1.0*1012 0.0000001 = 1.0*10-7
Vector quantities are quantities that have directionality as well as magnitude. Displacement (meters North) vs Distance (meters) Velocity (meters per second North) vs Speed (meters per second)
Time ,distance and mass are bass quantities whilevelocity ,acceleration ,force etc are derived quantities.
7.000000e-6
It is: 8.9*106
It is: 9.25*102
It is: 3.4*10-6
It is: 5.8*10-8